/* Symbol table manager for Bison, Copyright (C) 1984, 1989, 2000, 2001, 2002 Free Software Foundation, Inc. This file is part of Bison, the GNU Compiler Compiler. Bison is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. Bison is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with Bison; see the file COPYING. If not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #include "system.h" #include "hash.h" #include "complain.h" #include "symtab.h" #include "gram.h" /*------------------------. | Distinguished symbols. | `------------------------*/ symbol_t *errtoken = NULL; symbol_t *undeftoken = NULL; symbol_t *eoftoken = NULL; symbol_t *axiom = NULL; symbol_t *startsymbol = NULL; /*---------------------------------. | Create a new symbol, named TAG. | `---------------------------------*/ static symbol_t * symbol_new (const char *tag) { symbol_t *res = XMALLOC (symbol_t, 1); res->tag = xstrdup (tag); res->type_name = NULL; res->number = NUMBER_UNDEFINED; res->prec = 0; res->assoc = right_assoc; res->user_token_number = USER_NUMBER_UNDEFINED; res->alias = NULL; res->class = unknown_sym; nsyms++; return res; } /*-----------------------------------------. | Set the TYPE_NAME associated to SYMBOL. | `-----------------------------------------*/ void symbol_type_set (symbol_t *symbol, char *type_name) { if (symbol->type_name) complain (_("type redeclaration for %s"), symbol->tag); symbol->type_name = type_name; } /*------------------------------------------. | Set the PRECEDENCE associated to SYMBOL. | `------------------------------------------*/ void symbol_precedence_set (symbol_t *symbol, int prec, associativity assoc) { if (symbol->prec != 0) complain (_("redefining precedence of %s"), symbol->tag); symbol->prec = prec; symbol->assoc = assoc; } /*-------------------------------------. | Set the CLASS associated to SYMBOL. | `-------------------------------------*/ void symbol_class_set (symbol_t *symbol, symbol_class class) { if (symbol->class != unknown_sym && symbol->class != class) complain (_("symbol %s redefined"), symbol->tag); if (class == nterm_sym && symbol->class != nterm_sym) symbol->number = nvars++; else if (class == token_sym && symbol->number == NUMBER_UNDEFINED) symbol->number = ntokens++; symbol->class = class; } /*-------------------------------------------------. | Set the USER_TOKEN_NUMBER associated to SYMBOL. | `-------------------------------------------------*/ void symbol_user_token_number_set (symbol_t *symbol, int user_token_number) { assert (symbol->class == token_sym); if (symbol->user_token_number != USER_NUMBER_UNDEFINED && symbol->user_token_number != user_token_number) complain (_("redefining user token number of %s"), symbol->tag); symbol->user_token_number = user_token_number; /* User defined EOF token? */ if (user_token_number == 0) { eoftoken = symbol; eoftoken->number = 0; /* It is always mapped to 0, so it was already counted in NTOKENS. */ --ntokens; } } /*------------. | Free THIS. | `------------*/ static void symbol_free (symbol_t *this) { #if 0 /* This causes crashes because one string can appear more than once. */ XFREE (this->type_name); #endif XFREE (this->tag); XFREE (this); } /*-----------------------------------------------------------. | If THIS is not defined, report an error, and consider it a | | nonterminal. | `-----------------------------------------------------------*/ static bool symbol_check_defined (symbol_t *this) { if (this->class == unknown_sym) { complain (_("symbol %s is used, but is not defined as a token and has no rules"), this->tag); this->class = nterm_sym; this->number = nvars++; } return TRUE; } /*-------------------------------------------------------------------. | Declare the new SYMBOL. Make it an alias of SYMVAL, and type them | | with TYPENAME. | `-------------------------------------------------------------------*/ void symbol_make_alias (symbol_t *symbol, symbol_t *symval, char *typename) { if (symval->alias) warn (_("symbol `%s' used more than once as a literal string"), symval->tag); else if (symbol->alias) warn (_("symbol `%s' given more than one literal string"), symbol->tag); else { symval->class = token_sym; symval->type_name = typename; symval->user_token_number = symbol->user_token_number; symbol->user_token_number = USER_NUMBER_ALIAS; symval->alias = symbol; symbol->alias = symval; /* symbol and symval combined are only one symbol */ nsyms--; ntokens--; assert (ntokens == symbol->number || ntokens == symval->number); symbol->number = symval->number = (symval->number < symbol->number) ? symval->number : symbol->number; } } /*---------------------------------------------------------. | Check that THIS, and its alias, have same precedence and | | associativity. | `---------------------------------------------------------*/ static bool symbol_check_alias_consistence (symbol_t *this) { /* Check only those who _are_ the aliases. */ if (this->alias && this->user_token_number == USER_NUMBER_ALIAS) { if (this->prec != this->alias->prec) { if (this->prec != 0 && this->alias->prec != 0) complain (_("conflicting precedences for %s and %s"), this->tag, this->alias->tag); if (this->prec != 0) this->alias->prec = this->prec; else this->prec = this->alias->prec; } if (this->assoc != this->alias->assoc) { if (this->assoc != 0 && this->alias->assoc != 0) complain (_("conflicting assoc values for %s and %s"), this->tag, this->alias->tag); if (this->assoc != 0) this->alias->assoc = this->assoc; else this->assoc = this->alias->assoc; } } return TRUE; } /*-------------------------------------------------------------------. | Assign a symbol number, and write the definition of the token name | | into FDEFINES. Put in SYMBOLS. | `-------------------------------------------------------------------*/ static bool symbol_pack (symbol_t *this) { if (this->class == nterm_sym) { this->number += ntokens; } else if (this->alias) { /* This symbol and its alias are a single token defn. Allocate a tokno, and assign to both check agreement of prec and assoc fields and make both the same */ if (this->number == NUMBER_UNDEFINED) { if (this == eoftoken || this->alias == eoftoken) this->number = this->alias->number = 0; else { assert (this->alias->number != NUMBER_UNDEFINED); this->number = this->alias->number; } } /* Do not do processing below for USER_NUMBER_ALIASs. */ if (this->user_token_number == USER_NUMBER_ALIAS) return TRUE; } else /* this->class == token_sym */ { assert (this->number != NUMBER_UNDEFINED); } symbols[this->number] = this; return TRUE; } /*--------------------------------------------------. | Put THIS in TOKEN_TRANSLATIONS if it is a token. | `--------------------------------------------------*/ static bool symbol_translation (symbol_t *this) { /* Non-terminal? */ if (this->class == token_sym && this->user_token_number != USER_NUMBER_ALIAS) { /* A token which translation has already been set? */ if (token_translations[this->user_token_number] != undeftoken->number) complain (_("tokens %s and %s both assigned number %d"), symbols[token_translations[this->user_token_number]]->tag, this->tag, this->user_token_number); token_translations[this->user_token_number] = this->number; } return TRUE; } /*----------------------. | A symbol hash table. | `----------------------*/ /* Initial capacity of symbols hash table. */ #define HT_INITIAL_CAPACITY 257 static struct hash_table *symbol_table = NULL; static bool hash_compare_symbol_t (const symbol_t *m1, const symbol_t *m2) { return strcmp (m1->tag, m2->tag) ? FALSE : TRUE; } static unsigned int hash_symbol_t (const symbol_t *m, unsigned int tablesize) { return hash_string (m->tag, tablesize); } /*-------------------------------. | Create the symbol hash table. | `-------------------------------*/ void symbols_new (void) { symbol_table = hash_initialize (HT_INITIAL_CAPACITY, NULL, (Hash_hasher) hash_symbol_t, (Hash_comparator) hash_compare_symbol_t, (Hash_data_freer) symbol_free); } /*----------------------------------------------------------------. | Find the symbol named KEY, and return it. If it does not exist | | yet, create it. | `----------------------------------------------------------------*/ symbol_t * getsym (const char *key) { symbol_t probe; symbol_t *entry; (const char *) probe.tag = key; entry = hash_lookup (symbol_table, &probe); if (!entry) { /* First insertion in the hash. */ entry = symbol_new (key); hash_insert (symbol_table, entry); } return entry; } /*-------------------. | Free the symbols. | `-------------------*/ void symbols_free (void) { hash_free (symbol_table); } /*---------------------------------------------------------------. | Look for undefined symbols, report an error, and consider them | | terminals. | `---------------------------------------------------------------*/ void symbols_do (symbol_processor processor, void *processor_data) { hash_do_for_each (symbol_table, (Hash_processor) processor, processor_data); } /*--------------------------------------------------------------. | Check that all the symbols are defined. Report any undefined | | symbols and consider them nonterminals. | `--------------------------------------------------------------*/ void symbols_check_defined (void) { symbols_do (symbol_check_defined, NULL); } /*------------------------------------------------------------------. | Set TOKEN_TRANSLATIONS. Check that no two symbols share the same | | number. | `------------------------------------------------------------------*/ static void symbols_token_translations_init (void) { int num_256_available_p = TRUE; int i; /* Find the highest user token number, and whether 256, the POSIX preferred user token number for the error token, is used. */ max_user_token_number = 0; for (i = 0; i < ntokens; ++i) { symbol_t *this = symbols[i]; if (this->user_token_number != USER_NUMBER_UNDEFINED) { if (this->user_token_number > max_user_token_number) max_user_token_number = this->user_token_number; if (this->user_token_number == 256) num_256_available_p = FALSE; } } /* If 256 is not used, assign it to error, to follow POSIX. */ if (num_256_available_p && errtoken->user_token_number == USER_NUMBER_UNDEFINED) errtoken->user_token_number = 256; /* Set the missing user numbers. */ if (max_user_token_number < 256) max_user_token_number = 256; for (i = 0; i < ntokens; ++i) { symbol_t *this = symbols[i]; if (this->user_token_number == USER_NUMBER_UNDEFINED) this->user_token_number = ++max_user_token_number; if (this->user_token_number > max_user_token_number) max_user_token_number = this->user_token_number; } token_translations = XCALLOC (symbol_number_t, max_user_token_number + 1); /* Initialize all entries for literal tokens to 2, the internal token number for $undefined., which represents all invalid inputs. */ for (i = 0; i < max_user_token_number + 1; i++) token_translations[i] = undeftoken->number; symbols_do (symbol_translation, NULL); } /*----------------------------------------------------------------. | Assign symbol numbers, and write definition of token names into | | FDEFINES. Set up vectors SYMBOL_TABLE, TAGS of symbols. | `----------------------------------------------------------------*/ void symbols_pack (void) { symbols = XCALLOC (symbol_t *, nsyms); symbols_do (symbol_check_alias_consistence, NULL); symbols_do (symbol_pack, NULL); symbols_token_translations_init (); if (startsymbol->class == unknown_sym) fatal (_("the start symbol %s is undefined"), startsymbol->tag); else if (startsymbol->class == token_sym) fatal (_("the start symbol %s is a token"), startsymbol->tag); }